CN218920423U - Data transmission adapting assembly and data transmission system - Google Patents

Abstract

The embodiment of the application provides a data transmission adapting assembly and a data transmission system, wherein the data transmission adapting assembly comprises a processing chip set, a transmission interface and a transmission antenna set; the transmission interface is used for being connected with external terminal equipment, the processing chipset is connected with the transmission interface, the transmission antenna group is connected with the processing chipset and is used for being connected with an external receiving equipment group; the processing chip set at least comprises a first processing chip and a second processing chip, the transmission antenna set at least comprises a first transmission antenna and a second transmission antenna, and one transmission antenna is correspondingly connected with one processing chip. Based on the data transmission adapting component of the embodiment of the application, the data signals are processed through a plurality of processing chips in the processing chip set, so that the transmission quality of the data signals is ensured.

Description

Data transmission adapting assembly and data transmission system

Technical Field

The present disclosure relates to the field of data transmission technologies, and in particular, to a data transmission adapting assembly and a data transmission system.

Background

Nowadays, with the development of technology and the innovation of technology, the use limitation of wired headphones is insufficient to meet the use experience of users, so that the use popularity of wireless headphones is wider and wider in order to get rid of the limitation of the length of wired headphones.

Disclosure of Invention

The embodiment of the application provides a data transmission adaptation component and a data transmission system, and the technical scheme is as follows:

in a first aspect, an embodiment of the present application provides a data transmission adapting assembly, where the data transmission adapting assembly includes a processing chipset, a transmission interface, and a transmission antenna group; the transmission interface is used for being connected with external terminal equipment, the processing chip set is connected with the transmission interface, the transmission antenna set is connected with the processing chip set and is used for being connected with an external receiving equipment set; the processing chip set at least comprises a first processing chip and a second processing chip, the transmission antenna set at least comprises a first transmission antenna and a second transmission antenna, and one transmission antenna is correspondingly connected with one processing chip.

According to the data transmission adaptive assembly, the at least two processing chips in the data transmission adaptive assembly are respectively in one-to-one correspondence with one receiving device in the receiving device group through one of the transmission antennas in the transmission antenna group, so that data signals are favorably transmitted through the data transmission adaptive assembly with the at least two processing chips and are divided into at least two transmission paths respectively, the transmission quality of the data signals is guaranteed in the data signal transmission process through the transmission mode, and the data transmission rate is also improved.

Further, the receiving device group includes a first receiving device and a second receiving device, the first processing chip is communicatively connected with the first receiving device through a first transmission antenna, and the first receiving device supports left channel playing of audio, the second processing chip is communicatively connected with the second receiving device through a second transmission antenna, and the second receiving device supports right channel playing of audio.

Based on the above embodiment, the first processing chip and the second processing chip in the processing chipset are respectively connected with the first transmission antenna and the second transmission antenna in the transmission antenna group in a one-to-one correspondence manner, and are respectively correspondingly in communication connection with the first receiving device and the second receiving device of the receiving device group, so that the transmission quality of the data signal can be improved, and the split of the left channel and the right channel and the high-quality transmission of the audio can be realized.

Further, the data transmission adapting assembly further comprises a data processor, the data processor is respectively connected with the first processing chip, the second processing chip and the transmission interface, the stereo signal is split into a left channel signal and a right channel signal through the data processor, and the received left channel signal and right channel signal are synthesized into the stereo signal through the data processor.

Based on the above embodiment, the data processor is respectively connected with the first processing chip and the second processing chip, so that the data signal is processed by the data processor from the stereo signal to obtain the left channel signal and the right channel signal, the left channel signal and the right channel signal are transmitted to the two processing chips for further processing, and the received left channel signal and right channel signal are synthesized into the stereo signal, so that the processing efficiency of data transmission is improved.

Further, the first processing chip is in communication connection with the terminal device through the transmission interface, the first processing chip is in communication connection with the second processing chip, wherein the stereo signal is split into a left channel signal and a right channel signal through the first processing chip, and the received left channel signal and right channel signal are synthesized into the stereo signal through the data processor.

Based on the above embodiment, after the stereo signal is split by the first processing chip, the signal of one of the channels is sent to the second processing chip, so that the stereo signal is split and synthesized by one processing chip, and the effect that the stereo signal is split and synthesized without using a data processor is achieved.

Further, the data transmission adapting assembly further comprises at least two control buttons, and one control button is correspondingly connected with one of the processing chips in the processing chip set.

Based on the above embodiment, the control button is set on the processing chip, so that the mode of the data transmission adapting component can be switched through the operation of the control button, and the method is further suitable for the functional requirements of various use scenes.

In a second aspect, an embodiment of the present application provides a data transmission system, where the data transmission system includes a terminal device, a receiving device group, and the data transmission adapting unit provided in the first aspect, where a transmission interface in the data transmission adapting unit is connected to the terminal device, the receiving device group includes at least two receiving devices, and a transmission antenna in the data transmission adapting unit is correspondingly communicatively connected to one receiving device.

According to the embodiment of the application, the data transmission system is formed by the combination of the terminal equipment, the receiving equipment group and the data transmission adapting component, and the transmission antenna is respectively corresponding to the receiving equipment in the receiving equipment group according to the data transmission system, so that data signals are transmitted through one-to-one corresponding communication connection, the transmission quality of the data signals is ensured in the process of transmitting the data signals through the transmission mode of the multi-processing chip, and the data output speed is also improved.

Further, the playing data signal generated by the terminal device is transmitted to the data processor through the data transmission interface, the playing data signal is divided into a first data signal and a second data signal through the data processor, wherein the first data signal is an audio left channel signal, the second data signal is an audio right channel signal, the first data signal is transmitted to the first processing chip through the data processor, is transmitted to the first transmission antenna after being processed by the first processing chip, is transmitted to the first receiving device through the first transmission antenna, is transmitted to the second processing chip through the data processor, is transmitted to the second transmission antenna after being processed by the second processing chip, and is transmitted to the second receiving device through the second transmission antenna.

Based on the above embodiment, the first data signal and the second data signal are obtained after the broadcast data signal generated by the terminal device is transmitted to the data processor and processed, and the first data signal and the second data signal are respectively transmitted to the first receiving device and the second receiving device through the first processing chip and the second processing chip, so that the data signal is respectively transmitted through the multi-processing chip, and the transmission delay is reduced while the transmission quality of the data signal is ensured.

Further, the third data signal collected by the first receiving device is transmitted to the first processing chip through the first transmission antenna, then is transmitted to the data processor after being processed by the first processing chip, the fourth data signal collected by the second receiving device is transmitted to the second processing chip through the second transmission antenna, then is transmitted to the data processor after being processed by the second processing chip, the third data signal and the fourth data signal are integrated through the data processor so as to output a received data signal, and the received data signal is transmitted to the terminal device through the transmission interface.

Based on the above embodiment, the third data signal and the fourth data signal acquired by the first receiving device and the second receiving device are transmitted to the first processing chip by the first receiving device, the third data signal is transmitted to the data processor by the first processing chip, the fourth data signal is transmitted to the second processing chip by the second receiving device, the fourth data signal is transmitted to the data processor by the second processing chip, the third data signal and the fourth data signal are integrated by the data processor to obtain the received data signal, and the data received signal is transmitted to the terminal device by the data processor, so that the data signal can be integrated by being transmitted to the data processor respectively by the third data signal and the fourth data signal, and the transmission quality of the received data signal can be ensured under the condition of lower delay by the transmission mode of the multi-processing chip.

Further, the playing data signal generated by the terminal device is transmitted to the first processing chip through the data transmission interface, the first processing chip divides the playing data signal into a first data signal and a second data signal, wherein the first data signal is an audio left channel signal, the second data signal is an audio right channel signal, the first data signal is transmitted to the first transmission antenna through the first processing chip and then is transmitted to the first receiving device through the first transmission antenna, the second data signal is transmitted to the second processing chip through the first processing chip and then is transmitted to the second transmission antenna through the second processing chip and then is transmitted to the second receiving device through the second transmission antenna.

Based on the above embodiment, the first processing chip processes the play transmission signal generated by the terminal device to obtain the first data signal and the second data signal, the first data signal is transmitted to the first receiving device through the first processing chip, the second data signal is transmitted to the second processing chip through the first processing chip, and then the second data signal is transmitted to the second receiving device through the second processing chip, so that the first processing chip differentiates the data signal to obtain the first data signal and the second data signal, the use of the data processor is saved, and the use cost is reduced.

Further, the third data signal collected by the first receiving device is transmitted to the first processing chip through the first transmission antenna, the fourth data signal collected by the second receiving device is transmitted to the second processing chip through the second transmission antenna, then transmitted to the first processing chip through the second processing chip, the third data signal and the fourth data signal are integrated through the first processing chip to output a received data signal, and the received data signal is transmitted to the terminal device through the transmission interface.

Based on the above embodiment, the third data signal and the fourth data signal acquired by the first receiving device and the second receiving device are transmitted to the first processing chip by the first receiving device, the fourth data signal is transmitted to the second processing chip by the second receiving device, the fourth data signal is transmitted to the first processing chip by the second processing chip, the third data signal and the fourth data signal are integrated by the first processing chip to obtain the received data signal, and the data received signal is transmitted to the terminal device by the data processor, so that the third data signal and the fourth data signal can be respectively transmitted to the first processing chip for integration, and the transmission quality of the data signal is ensured under the condition of saving the cost caused by the data processor by the transmission mode of the multi-processing chip.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a data transmission system according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of another data transmission system according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of a communication connection between a data transmission adapting component and a terminal device according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of a communication connection between another data transmission adapting component and a terminal device according to an embodiment of the present application;

fig. 5 is a schematic structural diagram of a processing chipset and a control button set according to an embodiment of the present application;

fig. 6 is a system architecture diagram of a data transmission system according to an embodiment of the present application;

fig. 7 is a schematic structural diagram of a data transmission adapting assembly according to an embodiment of the present application, where the data transmission adapting assembly is respectively in communication connection with a receiving device group and a terminal device;

fig. 8 is a schematic structural diagram of another data transmission adapting component according to an embodiment of the present application, which is respectively in communication connection with a receiving device group and a terminal device.

Description of the drawings: 10. a terminal device; 20. a data transmission adaptation component; 21. a transmission interface; 22. processing the chipset; 221. a first processing chip, 222, a second processing chip; 23. a transmission antenna group; 231. a first transmission antenna; 232. a second transmission antenna; 24. a data processor; 25. a control button group; 251. a control button; 252. a control button; 30. a receiving device group; 31. a first receiving device group; 311. a first receiving antenna; 312. a first speaker; 313. a first microphone; 32. a second group of receiving devices; 321 a second receiving antenna; 322. a second speaker; 323. and a second microphone.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present application more apparent, the embodiments of the present application will be described in further detail below with reference to the accompanying drawings.

When the following description refers to the accompanying drawings, the same numbers in different drawings refer to the same or similar elements, unless otherwise indicated. The implementations described in the following exemplary examples are not representative of all implementations consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with some aspects of the present application as detailed in the accompanying claims.

In the description of the present application, it should be understood that the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art as the case may be. Furthermore, in the description of the present application, unless otherwise indicated, "a plurality" means two or more. "and/or", describes an association relationship of an association object, and indicates that there may be three relationships, for example, a and/or B, and may indicate: a exists alone, A and B exist together, and B exists alone. The character "/" generally indicates that the context-dependent object is an "or" relationship.

In practical use, in order to experience stereophonic audio, the stereophonic audio is transmitted through a single Bluetooth, and left channel audio data and right channel audio data are respectively played by a left earphone and a right earphone, so that the playing effect of stereophonic audio is achieved.

In order to solve the above technical problems, as shown in fig. 1, the embodiment of the present application provides a data transmission adapting assembly 20, where the data transmission adapting assembly 20 includes a processing chipset 22, a transmission interface 21 and a transmission antenna group 23, the transmission interface 21 is used for being connected with an external terminal device 10, the processing chipset 22 is connected with the transmission interface 21, the transmission antenna group 23 is connected with the processing chipset 22, and the transmission antenna group 23 is used for being in communication connection with an external receiving device group 30.

The terminal device 10 is configured to generate a data signal for playing by the receiving device set 30 and play a data signal received from the receiving device set 30, the transmission interface 21 in the data transmission adapting component 20 is configured to receive the data signal sent by the terminal device 10, the processing chip 22 processes the received data signal, and then transmits the data signal to the receiving device set 30 via the transmission antenna set 23, and the data receiving set 30 distributes the received data signal and controls the sub-devices to play respectively. Thereby realizing high-quality transmission of data signals on the multi-chip processing equipment and improving the transmission rate.

Further, another scenario is that after the data receiving group 30 receives the received data signal, the received data signal is transmitted to the processing chipset 22 through the transmission antenna group 23, and then the data signal is processed by the processing chipset 22 and then transmitted to the terminal device 10 through the transmission interface 21.

Further, as shown in fig. 2-3, the receiving device group 30 in fig. 2 includes a first receiving device 31 and a second receiving device 32, the first processing chip 221 is communicatively connected to the first receiving device 31 through a first transmission antenna 231, and the first receiving device 31 supports left channel playing of audio; the second processing chip 222 is communicatively coupled to the second receiving device 32 via a second transmit antenna 232, and the second receiving device 32 supports right channel playback of audio. The data transmission adapting assembly 20 in fig. 3 further includes a data processor 24, where the data processor 24 is respectively connected to the first processing chip 221, the second processing chip 222 and the transmission interface 21, and the stereo signal is split into a left channel signal and a right channel signal by the data processor 24, or the received left channel signal and right channel signal are synthesized into the stereo signal by the data processor 24.

After the terminal device 10 generates the play data signal, the play data signal is transmitted to the data processor 24 through the transmission interface 21 in the data transmission adapting component 20, the data processor 24 processes the data to obtain a first data signal and a second data signal, the first data signal is processed by the data processor 24 and then is transmitted to the first processing chip 221 in the processing chipset 22, the second data signal is processed by the data processor 24 and then is transmitted to the second processing chip 222, the first data signal is transmitted to the first receiving device 31 in the receiving device group 30 through the first processing chip 221 by the first transmission antenna 231 in the transmission antenna group, and the second data signal is transmitted to the second receiving device 32 through the second processing chip 222 by the second transmission antenna 232.

It should be noted that the number of processing chips in the processing chipset, the number of transmitting antennas in the transmitting antenna group, and the number of receiving devices in the receiving device group may be set according to practical situations, and are set as two processing chips, two transmitting antennas, and two receiving devices for illustration only, and the specific numbers of processing chips, transmitting antennas, and receiving devices in the processing chipset may be set according to practical situations. It should be noted that, in order to ensure the data signal transmission quality, the number of processing chips in the processing chipset and the number of transmission antennas in the transmission antenna group may be correspondingly equal.

If there are three or more processing chips in the processing chipset, each processing chip has a corresponding transmitting antenna and receiving device, for example, if there are three processing chips in the processing chipset, and the data signal is an audio data signal, and the receiving device is a pair of headphones (i.e. two headphones), the first data signal and the second data signal are respectively transmitted to any two processing chips in the three processing chips, and the first data signal and the second data signal are respectively transmitted to the corresponding receiving device through the two selected processing chips, so that one processing chip is left in a closed state or used for other processing; if the data signal is an audio signal, an instruction for a keyboard and an instruction for a mouse, and the receiving device is a pair of headphones, a keyboard and a mouse, one possible method is to transmit the left channel data signal and the right channel data signal in the audio signal to the left headphone and the right headphone of the headphones through any two processing chips of the three processing chips, respectively, and the instruction for the keyboard and the instruction for the mouse are transmitted to the corresponding keyboards and mice through the remaining one processing chip. The above-described method is merely one example for ease of illustration of a scenario.

It should be noted that, the data signal may be an audio data signal or other data signals, for example, if the receiving device in the receiving device group is an earphone, the audio data signal may be transmitted to the earphone for playing; if the receiving device in the receiving device group is a keyboard, the key instruction data signal for the keyboard can be transmitted to the keyboard.

Further, in order to secure the transmission quality of the audio data signal, when there are a plurality of receiving devices in the receiving device group and headphones are present, one processing chip in the processing chip group may be individually processed for the audio data signal.

Further, as shown in fig. 4, the first processing chip 221 in fig. 4 is communicatively connected to the terminal device 10 through the transmission interface 21, and the first processing chip 221 is communicatively connected to the second processing chip 222.

After the terminal device 10 generates the play data signal, the play data signal is transmitted to the first processing chip 221 in the processing chipset through the transmission interface 21, the first processing chip 221 processes the play data signal to obtain a first data signal and a second data signal, the first data signal is transmitted to the second receiving device 31 through the first transmission antenna 231, the second data signal is transmitted to the second processing chip through the first processing chip 221, and then is transmitted to the second receiving device 32 through the second transmission antenna 232.

It should be noted that, the first processing chip is used to divide the data transmission signal to obtain the first data signal and the second data signal for convenience of description, the second processing chip may be used to process the data signal in the actual use process, and the processing chip that does not perform the data dividing process in the set processing chip set may be set according to actual needs.

Further, as shown in fig. 5, the data processing adapting assembly 20 further includes a control button group 25, in fig. 5, the first processing chip 221 is connected to a control button 251 in the control button group 25, and the second processing chip 222 is connected to a control button 252 in the control button group 25. The control buttons in the control button group 25 control the processing chips in the processing chip group, respectively, for example, the control button 251 controls the first processing chip 221 in fig. 5, and the control button 252 controls the second processing chip 222. It should be noted that, the control buttons in the control button group 25 may be the control buttons and the processing chip in a one-to-one correspondence, or may be only one control button in the control button group, and the specific number of the control buttons in the control button group may be set according to actual needs. By pre-programming the control buttons in the control button group, different functions are realized through the operation of the control buttons, and further, the transmission mode of the data transmission adapting assembly 20 is changed, for example, the transmission mode is changed from the transmission mode shown in fig. 3 to the transmission mode shown in fig. 4, the method for operating the specific functions realized by the control buttons can be set according to the actual situation, and the specific realized functions of the control buttons can be set according to the actual situation.

If the control button group 25 has only one control button, one possible method may be to change the transmission mode from the transmission mode shown in fig. 3 to the transmission mode shown in fig. 4 when the control button is pressed once; when the control button is continuously pressed twice, the function of one processing chip in the processing chip set is closed, only one processing chip is used for processing the data signal, when only one processing chip in the processing chip set is used for processing the data signal, the control button is pressed for a long time to switch the processing chip for processing the data signal, when the duration of continuously pressing the control button exceeds a preset threshold value, the currently running processing chip is closed, the other processing chip is started, and if the processing chip set has more than two processing chips, the starting and the closing of the processing chips are changed according to the preset sequence; if the processing is required to be converted into the simultaneous processing of a plurality of processing chips by a single processing chip, the control button can be continuously pressed twice to realize the use scene that the processing of the plurality of processing chips is simultaneously performed. Other control button use modes can be set according to actual conditions.

As shown in fig. 6, an embodiment of the present application provides a data transmission system, where the data transmission system includes a terminal device 10, a receiving device group 30, and a data transmission adapting unit 20 of the first aspect, where a transmission interface 21 in the data transmission adapting unit 20 is communicatively connected to the terminal device 30, the receiving device group 30 includes at least two receiving devices, and one of transmission antennas in the data transmission adapting unit 20 is correspondingly communicatively connected to one of the receiving devices.

The terminal device 10 may generate a data signal for playing by another device, and play a received data signal sent by another device, where the transmission interface 21 in the data transmission adapting unit 20 is configured to receive the data signal, and split the data signal, and then transmit the data signal to the first receiving device 31 in the receiving device group 30 via the first transmission antenna 231, where the first receiving device 31 plays the received data signal, and transmit the received data signal to the second receiving device 32 in the receiving device group 30 via the second transmission antenna 232, where the second receiving device 32 plays the received data signal. Thereby realizing the separate transmission of the data signals on the multi-processing chips.

Further, another scenario is that after the first receiving device 31 and the second receiving device 32 in the receiving device set 30 respectively receive the received data signals, the same or different received data signals are respectively transmitted to the data transmission adapting assembly 20 via the first transmitting antenna 231 and the second transmitting antenna 232 for data processing, and are transmitted to the terminal device 10 via the transmission interface 21.

Further, as shown in fig. 7, the first receiving apparatus 31 includes a first receiving antenna 311, a first speaker 312, and a first microphone set 313, and the second receiving apparatus 32 includes a second receiving antenna 321, a second speaker 322, and a second microphone 323. The terminal device 10 is connected to the transmission interface 21 in the data transmission adapting unit 20, the transmission interface 21 is connected to the data processor 24, the data processor 24 is connected to the first processing chip 221 and the second processing chip 222 in the processing chip set, the first processing chip 221 is connected to the first transmission antenna 231 in the transmission antenna set 23 and the control button 251 in the control button set 25, the second processing chip 222 is connected to the second transmission antenna 232 in the transmission antenna set 23 and the control button 252 in the control button set 25, the first transmission antenna 231 is connected to the first receiving antenna 311 in the receiving device set 30, the first receiving antenna 311 is connected to the first speaker 312 in the speaker set and the first microphone 313 in the microphone set, the second transmission antenna 232 is connected to the second receiving antenna 321 in the receiving device set 30, and the second receiving antenna 321 is connected to the second speaker 322 in the speaker set and the second microphone 323 in the microphone set.

The first data signal processed by the data processor 24 is transmitted to the first speaker 312 via the first transmitting antenna 231 and the first receiving antenna 311 for playing; the second data signal is transmitted to the second receiving antenna 321 via the second transmitting antenna 232, and the second data signal is further transmitted to the second speaker 323 via the second receiving antenna 321 for playing.

Further, the first microphone 313 collects a third data signal, the third data signal is transmitted to the first processing chip 221 through the first receiving antenna 311 and the first transmitting antenna 231, and the third data signal is transmitted to the data processor 24 through the first processing chip 221; the second microphone collects a fourth data signal, the fourth data signal is transmitted to the second processing chip 222 through the second receiving antenna 321 and the second transmitting antenna 232, and the fourth data signal is transmitted to the data processor 24 through the second processing chip 222; after the third data signal and the fourth data signal are transmitted to the data processor 24, the third data signal and the fourth data signal are integrated into a received data signal by the data processor 24, and the received data signal is transmitted to the terminal device 10 through the transmission interface 21. Therefore, the data signal can be transmitted at a low-delay transmission rate in a transmission mode of a multi-processing chip under the condition of ensuring the transmission quality of the data signal.

It should be noted that, the audio signal is described herein as a signal type of the transmission signal, which does not represent that the transmission signal may be only an audio signal, and the signal type of the data signal may be any signal type required in any practical situation.

Further, it should be noted that, here, the audio signal is described as a signal type of the transmission signal, so the receiving device is described as an example of a bluetooth headset, and includes a speaker group, a microphone group and a receiving antenna group, and if other terminal devices are used as the receiving device group, specific devices of the receiving device group perform adjustment according to actual situations.

Further, as shown in fig. 8, the first receiving apparatus group includes a first receiving antenna 311, a first speaker 312, and a first microphone group 313, and the second receiving apparatus group includes a second receiving antenna 321, a second speaker 322, and a second microphone 323. The terminal device 10 is connected to the transmission interface 21 in the data transmission adapting unit 20, the transmission interface 21 is connected to the first processing chip 221 in the processing chip set and the first transmission antenna 231 in the transmission antenna set 23, the second processing chip 222 is connected to the first processing chip 221 and the second transmission antenna 232 in the transmission antenna set 23, the first transmission antenna 231 is connected to the first receiving antenna 311 in the receiving device set 30, the first receiving antenna 311 is connected to the first speaker 312 in the speaker set and the first microphone 313 in the microphone set, the second transmission antenna 232 is connected to the second receiving antenna 321 in the receiving device set 30, and the second receiving antenna 321 is connected to the second speaker 322 in the speaker set and the second microphone 323 in the microphone set.

The first data signal processed by the data processor 24 is transmitted to the first speaker 312 via the first transmitting antenna 231 and the first receiving antenna 311 for playing; the second data signal is transmitted to the second receiving antenna 321 through the second transmitting antenna 232, and the second data signal is further transmitted to the second speaker 322 through the second receiving antenna 321 for playing.

Further, the first microphone collects a third data signal, and the third data signal is transmitted to the first processing chip 221 through the first receiving antenna 311 and the first transmitting antenna 231; the second microphone collects a fourth data signal, the fourth data signal is transmitted to the second processing chip 222 through the second receiving antenna 321 and the second transmitting antenna 232, the fourth data signal is transmitted to the first processing chip 221 through the second processing chip 222, the third data signal and the fourth data signal are integrated into a receiving data signal through the first processing chip 221, and the receiving data signal is transmitted to the terminal device through the data transmitting interface. So that the data signal is transmitted with a high quality of the output data signal ensured by the transmission mode of the multiprocessing chip while saving the data processor 24.

It should be noted that, in the embodiment of the present application, the first processing chip and the second processing chip are any two processing chips in the processing chipset, and the naming manner is only used for distinguishing different processing chips, and the connection manner and the function of the first processing chip and the second processing chip can be mutually converted; the first data signal and the second data signal in the embodiment of the present application are used to represent two paths of data signals contained in the play data signal generated by the terminal device 10, the third data signal and the fourth data signal are used to represent two paths of data signals respectively collected by the receiving device group 30, and this naming method is only used to distinguish the data signals in different scenes.

According to the embodiment of the application, the data signals are respectively processed through the multi-processing chips, the obtained data signals are transmitted to the receiving equipment through the transmission antennas and the receiving antennas corresponding to the processing chips, corresponding use requirements can be met for different use scenes through conversion of different modes, and if the data signals are divided and integrated through the data processor, transmission delay can be reduced while the transmission quality of the data signals is ensured, and further transmission efficiency is ensured; if the first processing chip is directly connected with the transmission interface, the transmission quality of the data signal can be ensured under the condition of reducing the cost of the data processor, and the two methods can both transmit the data signal through multiple processing chips under the condition of multiple receiving devices, so that the transmission quality of the data signal is ensured.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present application, it should be understood that, if there is an azimuth or positional relationship indicated by terms such as "upper", "lower", "left", "right", etc., based on the azimuth or positional relationship shown in the drawings, this is for convenience of description and simplification of the description, but does not indicate or imply that the apparatus or element to be referred must have a specific azimuth, be constructed and operated in a specific azimuth, and thus terms describing the positional relationship in the drawings are merely used for illustration and are not to be construed as limitations of the present patent, and that the specific meaning of the terms described above may be understood by those of ordinary skill in the art according to the specific circumstances.

The foregoing description of the preferred embodiment of the present utility model is not intended to limit the utility model to the particular form disclosed, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the utility model.

Claims (10)

1. A data transmission adapting assembly, characterized in that the data transmission adapting assembly comprises a processing chipset, a transmission interface and a transmission antenna group; the transmission interface is used for being connected with external terminal equipment, the processing chipset is connected with the transmission interface, the transmission antenna group is connected with the processing chipset and is used for being connected with an external receiving equipment group; the processing chip set at least comprises a first processing chip and a second processing chip, the transmission antenna set at least comprises a first transmission antenna and a second transmission antenna, and one transmission antenna is correspondingly connected with one processing chip.

2. The data transmission adaptation component of claim 1, wherein the group of receiving devices comprises a first receiving device and a second receiving device;

the first processing chip is in communication connection with the first receiving device through the first transmission antenna, and the first receiving device supports left channel playing of audio;

the second processing chip is in communication connection with the second receiving device through the second transmission antenna, and the second receiving device supports right channel playing of audio.

3. The data transmission adaptation component of claim 1, wherein the data transmission adaptation component further comprises a data processor;

the data processor is respectively connected with the first processing chip, the second processing chip and the transmission interface, the stereo signal is split into a left channel signal and a right channel signal through the data processor, and the received left channel signal and right channel signal are synthesized into the stereo signal through the data processor.

4. A data transmission adapting assembly according to claim 3, wherein the first processing chip is communicatively connected to the terminal device via the transmission interface, and the first processing chip is communicatively connected to the second processing chip, wherein the stereo signal is split into a left channel signal and a right channel signal by the first processing chip, and the received left channel signal and right channel signal are synthesized into the stereo signal by the data processor.

5. The data transmission adapter assembly of claim 1 further comprising at least two control buttons, one control button being correspondingly coupled to one of the processing chips in the processing chipset.

6. A data transmission system, characterized in that the data transmission system comprises a terminal device, a set of receiving devices, and a data transmission adaptation component according to any of claims 1 to 5, wherein the transmission interface in the data transmission adaptation component is connected to the terminal device, the set of receiving devices comprises at least a first receiving device and a second receiving device, and one of the transmission antennas in the data transmission adaptation component is correspondingly communicatively connected to one of the receiving devices.

7. The data transmission system according to claim 6, wherein the play data signal generated by the terminal device is transmitted to a data processor in the data transmission adapting component via the transmission interface, and the play data signal is divided into a first data signal and a second data signal via the data processor; wherein the first data signal is a left channel signal of audio and the second data signal is a right channel signal of audio;

the first data signal is transmitted to the first processing chip through the data processor, is transmitted to the first transmission antenna after being processed by the first processing chip, and is transmitted to the first receiving device through the first transmission antenna;

the second data signal is transmitted to the second processing chip through the data processor, is then transmitted to the second transmission antenna after being processed by the second processing chip, and is transmitted to the second receiving device through the second transmission antenna.

8. The data transmission system according to claim 6, wherein the third data signal collected by the first receiving device is transmitted to the first processing chip through the first transmission antenna, and then is transmitted to the data processor in the data transmission adapting component after being processed by the first processing chip;

the fourth data signal acquired by the second receiving device is transmitted to the second processing chip through the second transmission antenna, and then is transmitted to the data processor after being processed by the second processing chip;

the third data signal and the fourth data signal are integrated by the data processor to output a received data signal, and the received data signal is transmitted to the terminal device by the transmission interface.

9. The data transmission system according to claim 6, wherein the play data signal generated by the terminal device is transmitted to the first processing chip through the transmission interface, and the first processing chip divides the play data signal into a first data signal and a second data signal, wherein the first data signal is a left channel signal of audio, and the second data signal is a right channel signal of audio;

the first data signal is transmitted to the first transmission antenna through the first processing chip and then transmitted to the first receiving device through the first transmission antenna;

the second data signal is transmitted to the second processing chip through the first processing chip, then transmitted to the second transmission antenna through the second processing chip, and further transmitted to the second receiving device through the second transmission antenna.

10. The data transmission system of claim 6, wherein a third data signal acquired by the first receiving device is transmitted to the first processing chip via the first transmission antenna;

the fourth data signal acquired by the second receiving device is transmitted to the second processing chip through the second transmission antenna, and then transmitted to the first processing chip through the second processing chip;

the third data signal and the fourth data signal are integrated through the first processing chip to output a received data signal, and the received data signal is transmitted to the terminal device through the transmission interface.

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